JP2020508472A5 - - Google Patents

Description

While the invention has been particularly shown and described with reference to the preferred embodiments, those skilled in the art can make various changes to the construction and details without departing from the spirit, scope and teaching of the invention. You will understand what you get.
Finally, preferred embodiments of the present invention will be described item by item.
[Embodiment 1]
A multi-channel cartridge for bio-separation of a sample comprising a plurality of cartridge elements, each cartridge element comprising:
A main body defining an opening as a detection window for receiving an external detection optical system,
A capillary column supported in the body,
A reservoir dedicated to each cartridge element attached to the first end of the body and in fluid communication with the first end of the capillary column;
A multi-channel cartridge, wherein the plurality of cartridge elements are connected and the reservoirs of each cartridge element are not in fluid communication.
[Embodiment 2]
The multi-channel cartridge according to embodiment 1, wherein the plurality of cartridge elements are sequentially connected in a plane.
[Embodiment 3]
The multi-channel cartridge of embodiment 1, wherein the detection window of at least one cartridge element exposes a portion along the capillary column through which external detection optics are aligned relative to the portion. ..
[Embodiment 4]
The capillary column is coaxially supported by two ferrules supported in the main body, and each of the two ferrules is supported by the main body in a cantilever shape, and extends into the detection window. And a detection area along the capillary column exposed between the extended ends of the two ferrules.
[Embodiment 5]
The multi-channel cartridge according to the first embodiment, wherein the main body is an elongated blade having a substantially vertical blade shape.
[Embodiment 6]
The multi-channel cartridge according to embodiment 5, wherein the capillary column is supported along a central axis of the main body.
[Embodiment 7]
A mulch according to embodiment 1, wherein in each cartridge element a second end of the body extends from a body portion having a width, the second end of the body being narrower than the width of the body portion. Channel cartridge.
[Embodiment 8]
8. The multi-channel cartridge of embodiment 7, wherein the second end of the body tapers from the body portion to a narrow end.
[Embodiment 9]
At least the first cartridge element further comprises an anode in the reservoir, the anode being conductively coupled to a fluid contained in the reservoir, and the anodes of each cartridge element are not conductively coupled in the cartridge. A multi-channel cartridge according to aspect 1.
[Embodiment 10]
At least the second cartridge element further comprises a cathode disposed at the second end of the body, the capillary column extending between a reservoir of the first cartridge element and a cathode of the second cartridge element. A multi-channel cartridge according to embodiment 9, which is present.
[Embodiment 11]
Each cartridge element comprises an anode and a cathode, the cathode being located at a second end of the body of the cartridge element, in each cartridge element the capillary column extending between the reservoir and the cathode and within a detection window. 10. The multi-channel cartridge of embodiment 9 wherein a portion along the capillary column of is exposed and external detection optics is aligned with the portion through the detection window.
[Embodiment 12]
The multi-channel cartridge according to embodiment 11, wherein each cartridge element defines a different separation channel.
[Embodiment 13]
In a multi-channel cartridge for bio separation,
A body defining a plurality of apertures as detection windows for receiving external detection optics, each detection window corresponding to an individual one of a plurality of separation channels;
A plurality of reservoirs attached to the body, each reservoir corresponding to a separate one of the plurality of separation channels;
A plurality of capillary columns, each capillary column having a first end in fluid communication with an individual reservoir and a second end extending away from the reservoir to a distal end of the body.
A multi-channel cartridge for bioseparation, comprising:
[Embodiment 14]
Chassis,
A multi-channel cartridge according to embodiment 1 wherein the body of each cartridge element is supported by said chassis;
A table supporting at least one tray containing sample and buffer against an extended end of at least one capillary column supported by one of the cartridge elements in said cartridge;
At least one fork assembly supporting detection optics, the fork assembly movable to extend into a detection window defined in the cartridge element;
A separation mechanism for performing bioseparation of a sample in the capillary column,
A controller that controls movement of the fork assembly and the separation mechanism to perform bioseparation of a sample in the capillary column;
A bioseparation system comprising:
[Embodiment 15]
The fork assembly comprises a first fork assembly and a second fork assembly, the detection optics being supported by the first fork assembly to direct incident radiation to a detection zone of the cartridge element. 15. The bioseparation system of embodiment 14 comprising optics and second optics supported by the second fork assembly to collect radiation from the detection area of the cartridge element.
[Embodiment 16]
The first and second fork assemblies are disposed laterally on both sides of the cartridge element, the first and second fork assemblies defining the first and second fork assemblies on the cartridge element. A first position not extending into the detection window and a second position in which the first and second fork assemblies extend into the detection window defined in the cartridge element, 16. The bioseparation system according to embodiment 15.
[Embodiment 17]
15. The bioseparation system according to embodiment 14, further comprising a temperature control mechanism for controlling the temperature of the sample in the tray.
[Embodiment 18]
18. The bioseparation system according to embodiment 17, further comprising a temperature control mechanism for controlling the temperature of the cartridge element.
[Embodiment 19]
The embodiment further comprising a puncher supported by the chassis, the puncher being movable relative to a tray supported on the table, thereby punching a seal over the tray. The bioseparation system described.
[Embodiment 20]
Chassis,
A multi-channel cartridge according to embodiment 1, wherein the body of the cartridge element is supported by the chassis, each cartridge element defining a different separation channel.
A table supporting at least one tray containing sample and buffer against an extended end of a capillary column supported by the body of the cartridge element;
A plurality of fork assemblies supporting detection optics, the fork assemblies being movable to extend into a detection window defined in respective cartridge elements, each separation channel including at least one fork assembly. A fork assembly,
A separation mechanism for performing bioseparation of the sample in each separation channel defined by the capillary column,
A controller that controls the movement of the fork assembly and the separation mechanism to effect sample separation within the capillary column;
A bioseparation system comprising:
[Embodiment 21]
Each fork assembly comprises a first fork assembly and a second fork assembly, the detection optics being supported by the first fork assembly for directing incident radiation to a detection zone of a corresponding cartridge element. Optics and second optics supported by the second fork assembly to collect radiation from the detection area of the corresponding cartridge element, the first and second fork assemblies comprising: Located on opposite sides of the corresponding cartridge element, the first and second fork assemblies extend into a detection window defined by the corresponding cartridge element. A first position, and the first and second fork assemblies are defined in the corresponding cartridge element Moves between the second position extending to the bay windows, bio-separation system according to embodiment 19.

Claims (11)

A multi-channel cartridge for bioseparation of samples , configured to accommodate capillary columns of different lengths, comprising :
Including a plurality of cartridge elements, each cartridge element
A main body defining an opening as a detection window for receiving an external detection optical system,
A capillary column supported in the body,
A reservoir dedicated to each cartridge element attached to the first end of the body and in fluid communication with the first end of the capillary column;
An anode conductively coupled to a fluid contained in the reservoir ;
A cathode disposed at the second end of the body, the plurality of cartridge elements are connected, and the reservoirs of each cartridge element are not in fluid communication,
The anodes of each cartridge element are not conductively coupled within the multichannel cartridge ,
Each cartridge element defines a different separation channel ,
The multi-channel cartridge has a short capillary column having a first length extending between a reservoir of the cartridge element and a cathode of the cartridge element such that a portion along the short capillary column within a detection window of the cartridge element. A first arrangement configured to be exposed and a long capillary column having a length greater than the first length extending between the reservoir of the first cartridge element and the cathode of the second cartridge element. And a second arrangement configured to expose a portion along the long capillary column within a detection window of the first cartridge element, as desired .   The multi-channel cartridge of claim 1, wherein the plurality of cartridge elements are sequentially connected in a plane. Exposed portions of the capillary is aligned with the external detection optical system through the detection window, the multi-channel cartridge according to claim 1 or 2. The multi-channel cartridge according to any one of claims 1 to 3, wherein the main body is substantially vertically long, and the capillary column is supported along a central axis of the main body . The multi-channel cartridge can be configured to have both the long capillary column and the short cartridge column, the long capillary column extending between the first reservoir of the first cartridge element and the cathode of the adjacent second cartridge element. Is configured to expose a portion along the long capillary column within a detection window of the first cartridge element, the short capillary column between the reservoir of the third cartridge element and the cathode of the third cartridge element. 5. A multi-channel cartridge as claimed in any one of claims 1 to 4 configured to extend to expose a portion along the short capillary column within a detection window of a third cartridge element . Chassis,
Body of each cartridge element is supported by the chassis, and a multi-channel cartridge according to any one of claims 1-5,
A table supporting at least one tray containing sample and buffer against an extended end of at least one capillary column supported by one of the cartridge elements in said cartridge;
At least one fork assembly supporting detection optics, the fork assembly movable to extend into a detection window defined in the cartridge element;
A separation mechanism for performing bioseparation of a sample in the capillary column,
A controller that controls movement of the fork assembly and the separation mechanism to perform bioseparation of a sample in the capillary column;
A bioseparation system comprising: The fork assembly comprises a first fork assembly and a second fork assembly, the detection optics being supported by the first fork assembly to direct incident radiation to a detection zone of the cartridge element. 7. The bioseparation system of claim 6 , comprising optics and second optics supported by the second fork assembly to collect radiation from the detection area of the cartridge element. The first and second fork assemblies are disposed laterally on both sides of the cartridge element, the first and second fork assemblies defining the first and second fork assemblies on the cartridge element. A first position not extending into the detection window and a second position in which the first and second fork assemblies extend into the detection window defined in the cartridge element, The bioseparation system according to claim 7 . 9. The bioseparation system according to claim 6 , further comprising a temperature control mechanism that controls the temperature of the sample in the tray. The bioseparation system according to claim 6 , further comprising a temperature control mechanism that controls the temperature of the cartridge element. 7. A puncher supported by a chassis, the puncher being moveable relative to a tray supported on the table, thereby punching a seal over the tray . 10. The bioseparation system according to any one of 10 .